2001.07a
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When a fault occurs on distribution network. blackout region may happen, then it should be restored as fast as possible to minimize interruption of electric service. In this paper. A near optimal method to restore distribution network is proposed. For an optimal restoration, the number or switching operations must be minimized. The proposed method generates a general restoration plan for any distribution network fault and designed to reduce switching operations considering available load transfers. In this method overall process time can reduce with heuristic rules, which make a reduction of search space before restoration process. To achieve a near optimal solution, multiple load transfer algorithm is proposed too.
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This paper presents a new method which applies a genetic algorithm(GA) for determining which sectionalizing switch to operate in order to solve the distribution system loss minimization re-configuration problem. The distribution system loss minimization re-configuration problem is in essence a 0-1 planning problem which means that for typical system scales the number of combinations requiring searches becomes extremely large. In order to deal with this problem, a new approach which applies a GA was presented. Briefly, GA are a type of random number search method, however, they incorporate a multi-point search feature. Further, every point is not is not separately and respectively renewed, therefore, if parallel processing is applied, we can expect a fast solution algorithm to result.
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This paper presents a study of transient overvoltages caused by capacitor switching on the utility distribution system. Capacitor banks used for power factor correction and voltage regulation can improve efficiency of the power system. But transient voltages due to capacitor switching on the utility system affect the sensitive customer load equipments. If Distributed Generation System (DGS) is involved in the system, the problems become more serious. In this paper, effect of transient voltages at the customer load created by utility capacitor switching is analyzed by simulations Solutions to this problem are presented.
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본 논문은 최근 3년간 강원 영서 지역에서 실측한 전원의 고조파 함유량을 토대로 전압 고조파, 중성선 전류 고조파 및 고조파로 인한 역율 저하를 분석하였다. 전압 고조파의 종합 왜형율(THD)은 순시 측정시 적합율 88.5%, 24시간 측정시 42.9%로 나타났으며, 중성선 전류의 종합 왜형율은 1,000%를 상회하는 장소가 20%를 차지하고 있어 심각한 문제점들이 발생될 수 있음을 알았다. 또한, 종합 고조파 왜형율의 증가로 인한 역율 저하는 평균 2%정도 발생되었다.
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Recently, a study on operation in parallel between Distributed Generation(DG) unit and power distribution system has been growing interest in power distribution system. But, introducing the DG unit causes the problem due to rising the voltage variation on power distribution system. So, This paper presents the effect of introducing DG unit on distribution system. For this simulation, KEPCO distribution system is used.
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Nowadays, small scale DGS(Distributed Generation System), as a wind power generation or photovoltaic generation, becomes to be introduced into the power distribution system. But in that case it is difficult to properly maintain the terminal voltage of low voltage customers by using only LDC(Line Drop Compensator). So, it is necessary to determine the permissible operation limit of the introduced DGS for proper voltage in distribution system. In this paper clarifies the relationship between LDC voltage regulation principle and real, reactive power of DGS, and examines the permissible operation limit of the introduced DGS in distribution system which the voltage is controlled by LDC.
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This paper presents a fault phase selection algorithm for transmission line protection by means of the symmetrical components. Accurate fault phase selection is necessary for collect functioning of transmission line relaying, particularly in Extra High Voltage (EHV) networks. The conventional phase selection algorithm used the phase difference between positive and negative sequence current excluding load current. But, it is difficult to abstract only fault current since we can not know the time which a fault occurs. The proposed algorithm can select the accurately fault phase using fault current contained pre-fault current.
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To verify operation of relay is a difficult job for relay engineers. This paper reports the development of logic simulator. Fault data is generated from EMTP and system information generator. The developed system has a universal characteristics that can deal with any relay logic.
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월성2호기가 100% 출력 운전중 2001.4.6일 20:16분에 345kV 신경산변전소 GIS모선#1측 지락고장 파급으로 주발전기 정지중 기동시 보호 용계전기(50/27)가 동작되어 발전정지 되고 원자로 출력은 60%까지 감발 되었음. 본 보호계전기는 발전기 정지나 터닝기어로 저속운전 중 인적 실수에 의해 발전기 병입용차단기 투입시 발전기가 과도한 돌입전류로 손상되는 것을 방지하기 위한 계전기로, 정상운전중이거나 외부사고시에는 동작할 수 없는 보호계전기임. 따라서 본 보호계전기의 동작원인을 당시 동작 상황과 기록데이터를 정정치와 함께 분석하고 적정동작을 위한 대책을 제시함.
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The four fuzzy criteria to distinguish the internal fault from the inrush for the power transformer protection have been identified. They are based on the wave shape, terminal voltage, fundamental and second harmonic component of differential current. A systemetic way to determine the associated fuzzy membership function is also proposed.
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Measuring technology based on the computer and software is used worldwideiy by the aids of remarkably improved digital technology and measuring devices, and the electro- magnetic interference due to high currents and high voltages is being solved by the helps of applied optic instrumentation technology. The automatic acquisition, analysis and storage system of test data is available for utilizing the numerical computation technology. The measuring accuracy and testing efficiency are thus much higher because of the developed technologies. In this paper, the construction of data acquisition system in KERI including measuring devices and its application to the short circuit test are described, and additionally the algorithm of the analyzing program for the automatic process of test data and the results of analyses are described.
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This paper presents a Web-based educational tool for Power System Engineering, especially for power engineers. This tool has Web-oriented educational courses for power system education. The Web-based learning has become more popular year by year in the various fields[1-2]. The proposed educational tool provides some courses such as power system introduction Course, KEPCO's system introduction Course, Power system devices Course, Power Flow Course, OPF Course, ELD Course, Stability Analysis Course, Fault analysis Course, Voltage & Frequency control Course, and power system planning & operation Course. Finally, it will be scheduled to install for the education tool of the power system engineering for KEPS[3].
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Presently the Korean grounding system uses TN system, multi-grounding method with TT independent grounding method. Nevertheless TN system can't exist with TT system in the technological terms. If they coexist, it causes ground-fault circuit not to operate, and brings about different electrical potential rise by customer system. It brings about serious problems for safety. This paper aims for improving method of grounding system based on the technical analysis on instances in foreign countries and Korea. Almost standards and construction manner were apt to be internationalized after WTO/TBT agreement was concluded. The internal grounding systems should meet the international criteria and reliability for safety, and be provided with technologically impeccable standards.
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This paper presents the result or a survey and analysis on the reaction of medium and small electric power industries under deregulatory reforms of electric power industry. To achieve the deregulatory reforms smoothly, the strategy that minimize side effects in a transient period and form full national if sympathy, are required. A mailed questionnaire, in this paper, had of been achieved objectively to seize the tend. According to the result of this paper, the deregulatory reforms should be managed to be carefully and publicized continuously through various medium. The result of this paper can be utilized to perform effectively the deregulatory reforms.
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In this paper, we explained the prevention activity for the fault of transmission facilities, And also considered the methods to lessen faults through the analysis of faults to be occurred in the west and south of chung-nam province (Cheong-yang power transmission branch office) for several years recently, and then proposed a suitable countermeasure and direction for the fault prevention activity.
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Recent recovery of the Korean economy drives a rapid increase in utility consumption and requires more stable utility supply and maintenance. However, power location security hardship, reinforcement of international environmental regulation and a huge cost of power plant construction have increased the burden laid on the stable supply. In addition, an efficient and flexible load management is required more than any era since an increment of the rate of increase in cooling load is expected. Therefore, according as the necessity of direct load control for cooling load during the summer in Korea was on the rise, direct load control systems by Internet communication method are constructed at five commercial buildings. Based on practical load control, this study proposes various application modes and communication methods prior to extension diffusion of direct load control hereafter.
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Because of the difficulty of acquiring new generation sites and right- of-way, additional units have been added to the existing generation sites and the transmission system has been developed into highly meshed configuration. The reliable operation of power systems has been restricted by this system characteristics. The enhancement of system analysis techniques and establishment of appropriate measures have been required in this situation. In addition the deregulation of electric power industry in Korea would give rise to better tools for power system analysis and control. In this paper, dynamic models were developed.
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Because of the difficulty of acquiring new generation sites and right- of-way, additional units have been added to the existing generation sites and the transmission system has been developed into highly meshed configuration. The reliable operation of power systems has been restricted by this system characteristics. The enhancement of system analysis techniques and establishment of appropriate measures have been required in this situation. In addition the deregulation of electric power industry in Korea would give rise to better tools fur power system analysis and control. In this paper, dynamic models were developed and stability studies were implemented using developed dynamic models of EUROSTAG and compared with the simulation results of PSS/E.
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In general, the PSS/E program based on RMS mathematical models is used for analyzing the steady state and transient stability phenomena of full-scale large power system. Whereas, the EMTDC program unlike PSS/E, studies the specific reduced small-scale power systems as a basis of instantaneous value mathematical models and used to analyze the Electro-Magnetic transient characteristics. The PSS/E provides various control models such as exciter, governor and PSS models, But there are few control models in EMTDC. In this paper, we developed EMTDC models for governor which have been applied in KEPCO system. The EMTDC models are developed by examining PSS/E control block and using User Define Model in addition to default.lib provided by EMTDC. we verify the correctness of developed governor models with PSS/E and EMTDC simulation results using Governor Step(GSTEP) method.
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EMTDC가 FACTS 기기와 같이 전력전자소자가 포함된 계통을 신뢰성 있게 해석 할 수 있고 또한 다양한 제어기능과 각종 스위칭 소자 모델을 제공 하기때문에 실계통에서 운용되고 있는 서대구 SVC 제어시스템을 EMTDC로 개발하였다. 모델 개발을 위하여 서대구 SVC의 제작사인 ABB에서 제공한 서대구 SVC의 기능, 구성 및 특성을 분석하였으며 개발된 EMTDC SVC 제어시스템 모델의 신뢰성을 검증하기 위하여 제작사에서 제공한 TNA 테스트 결과와 비교하여 모델의 정확성을 검증하였다.
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본 논문에서는 EMTDC/PSCAD 패키지를 이용하여 배전용 정지형보상기(DSTATCOM)의 모델을 제안하였고, 이를 비선형 부하를 가지는 배전계통의 전력품질 향상을 위해 "직접" 출력전압 제어 기술을 적용하였다. 1선 지락 사고시에 본 논문에서 제시한 방법을 이용한 시뮬레이션을 통해 전압 파형이 개선되고, 고조파가 감소되며, 선로 전압 조정을 할 수 있음을 보였다.
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본 연구에서는 플랜트의 계측신호로 부터 특징 패턴 파형들을 감지하고 패턴감지 정보로부터 플랜트의 운전상황 및 고장을 알아내도록 하는 새로운 기법을 제시하고, 이러한 기법의 실현에 필요한 신호처리 기초 연구를 수행하였다. 또한 보령화력 1.2호기 500MW급 드럼형 보일러및 제어 시스템을 대상으로 보일러 플랜트의 dynamics 모델링과 운전 시뮬레이션을 통하여 여러 운전 패턴및 고장 상황을 발생시켜 고장감지 앨고리즘들의 개발 및 시험과정에 적용하였다. 본 연구에서 수행한 보일러 및 보일러 제어계통에 대한 모델링 및 시뮬레이션은 실제 수행한 발전소 시험 데이터와 비교할 때 높은 일치도를 보이는 결과를 보였다.
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On-site power system design of APR1400 is different from that of existing and operating plants and APR1400 has no operating experience. So we have to confirm its adequacy of design exclusively by analyses. So an method of analysis is the only way to evaluate safety of design of the power system of APR1400. Therefore the purpose of this paper is a construction of verification program and a verification of utilities' analysis results by using this program in order to confirm the adequacy of APR1400 on-site & off-site power-system.
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This Paper presents a part of system study results for UPFC Pilot Plant application in Korea. The system study includes short circuit rate of Kangjin S/S which is site of UPFC Pilot Plant,
${\Delta}V/{\Delta}Q$ characteristics in STATCOM mode, P and Q flow control boundary of UPFC Pilot Plant. The system study is simulated by PSS/E Ver. 26. -
본 논문은 2003년 한전 실계통(154kV 강진 S/S)에 적용예정인 80MVA UPFC(Unified Power Flow Controller) 시스템의 적용효과를 EMTDC/PSCAD 프로그램을 이용하여 분석한 결과이다. UPFC는 현재까지 개발된 FACTS 기기중 전압, 임피던스, 위상각등 전력전송 제어를 위한 송전선로의 모든 파라미터를 동시에 제어 할 수 있는 유일한 FACTS기기[1]로서 미국 Inez S/S에 이어 세계 두번째로 강진 S/S에 80MVA 용량의 UPFC가 실계통 적용될 예정이다. 본 논문은 대표적인 과도현상 해석프로그램인 EMTDC를 이용한 80MVA UPFC의 적용시 계통 제어효과 분석에 대하여 기술하였다. 적용된 EMTDC UPFC모델은 실제 80MVA UPFC 기기 전력회로, 제어기와 동일하게 모델링하였으며 적용 대상계통은 한전 계통 데이터를 바탕으로 강진 S/S인근 계통을 축약 등가화한 계통모델을 사용하였다.
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Choi, Sun-Kyu;Lee, Jong-Seock;Lee, Byung-Jun;Kwon, Sae-Hyuk;Nam, H.K.;Choo, J.B.;Lee, Koung-Guk;Yoon, S.H. 97
This paper describes preventive control for transient stability. Preventive control encompasses in general a twofold problem : Severity assessment of a instability originating from the occurrence of a dangerous contingency, and Choice of an action able to stabilize it. In this paper we assess contingencies in a power systems using PASF(Power Angle Shape Filtering) and control power systems by a generation rescheduling. The proposed method is applied to prevent loss of synchronism of all the generators at a site, KEPCO Systems. -
본 논문에서는 한전 전력연구원에서 개발한 전력계통 해석용 시뮬레이터(이하 KEPS)를 이용하여 대규모 전력계통을 실시간으로 해석하는 방법 및 그 결과를 제시하고자 한다. KEPS는 캐나다 RTI사에서 개발한 RTDS(Real-Time Digital Simulator)를 근간으로 하는 대규모 디지털 실시간 시뮬레이터로써 총 26랙으로 구성되어 있으며 대규모 전력계통을
$50{\mu}sec{\sim}70{\mu}sec$ 의 타임스텝으로 계산할 수 있는 전력계통 전자기 과도현상 모의해석 장치이다. 본 논문에서는 KEPS를 이용하여 한전의 2000년 계통을 실시간으로 해석하고, 전력계통 안정화장치 (PSS), 계전기등 외부기기를 실시간으로 해석, 검증한 결과를 소개하기로 한다. -
This paper presents the comparison of three methods which determines the voltage control area for the secondary voltage control in power system. Each secondary control area is sufficiently uncouped from its neighbours for the controls within a area to be slightly influenced by the actions carried out in the other areas. Results obtained using a modifed 48bus test system are presented illustrating the applicability of the approach.
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Modern power grids are becoming more and more stressed with the load demands increasing continually. Therefore large stressed power systems exhibit complicated dynamic behavior when subjected to small disturbance. Especially, it is needed to analyze special conditions which make small signal stability structure varied according to operating conditions. This paper shows that the relation between small signal stability and operating conditions can be predicted well using node-focus point and 1:1 resonance point. Also, the weak point which limits operating range can be identified by the analysis of resonance condition. The proposed method is applied to test systems, and the results illustrate its capabilities.
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Eigenvalue perturbation theory of augmented system matrix(AMEP) is a useful tool in the analysis and design of large scale power systems. This paper describes the application results of AMEP algorithm with respect to all controller parameter of KEPCO systems. AMEP for interarea and local mode can be used for turning controller parameter, and verifying system data and linear model of controller.
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The load bus voltage is controlled by not only using several control device but also generation bus voltage adjustment. This paper deals with a load bus voltage control problem which used optimization and load flow technique. The usage of proposed control algorithm is verified through the comparison with normal load flow on the IEEE 14 sample system. The proposed control algorithm can be used to optimal decision of position and capacity for voltage control device.
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This paper deals with economic load flow which have objective funtion about generation fuel cost and constraints about power flow equation and generation power limits. A algorithm using penalty method with newton approach is presented. The proposed algorithm is verified through the comparison with lossless ELD on the IEEE 14 system.
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This Paper presents an application technique for solving the Security Constrained Economic Dispatch(SCED) problem using the Interior Point Method. The optimal power flow solution is obtained by optimizing the given generation cost objectives function subject to the system security constraints. The proposed technique is applied to a prototype 6-bus system for evaluation and test.
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In this paper, a robust
$H_{\infty}$ optimal design problem under a structure-specified PSS is investigated for power systems with parameter variation and disturbance uncertainties. Immune algorithm is employed for optimization method of PSS parameter. It is shown that the proposed$H_{\infty}$ -PSS tuned using immune algorithm is more robust than conventional PSS. -
This paper proposes the design of LQ-PSS(linear quadratic power system stabilizer) for improving power system stability using genetic algorithm(GA). We are tuned weighting matriecs of LQ-PSS using GA. To evalute the usefulness of the proposed method. we performed the nonlinear simulation on a single machine infinite system. As results of the simulation. the proposed method shows the better control performance than CPSS(conventional power system stabilizer) in trems of settling time and damping effects.
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The basic function of a Power-System Stabilizer(PSS) is to add damping to the generator rotor oscillations by controlling its excitation using auxiliary stabilizing signals. To provide damping. the stabilizer must produce a component of electrical torque in phase with the rotor speed deviations. This paper introduces the hardware specifications and various functions of microprocessor (TMS320C32)-based digital PSS to provide the damping torque.
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This paper describes the application of Fuzzy Power System Stabilizer(FPSS) for improving dynamic stability of power system. The Real-coding Genetic Algorithm(RGA) was applied to optimize gains of the inputs and outputs of the FPSS. The effectiveness of the proposed FPSS was demonstrated by simulation studies for single-machine infinite system. To show the superiority of the proposed FPSS, its performances were compared with those of Conventional Power System Stabilizer(CPSS) The proposed FPSS showed better control performances than the CPSS in three-phase ground fault under a normal load which was system condition in tuning FPSS. To show the robustness of the proposed FPSS, it was applied to damp the low frequency oscillations caused by disturbances such as three-phase ground fault under heavy and light load conditions. The proposed FPSS showed better performance than CPSS in terms of the settling time and damping effect for power system operation condition.
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In this paper, we design a GA-fuzzy precompensator for enhancement of power system stability. Here, a fuzzy precompensator is designed as a fuzzy logic-based precompensation approach for Power System Stabilizer(PSS). This scheme is easily implemented simply by adding a fuzzy precompensator to an existing PSS. And we optimize the fuzzy precompensator with a genetic algorithm for complements the demerit such as the difficulty of the component selection of fuzzy controller, name1y, scaling factor, membership function and control rules. Simulation results show that the proposed control technique is superior to a conventional PSS in dynamic responses over the wide range of operating conditions and is convinced robustness and reliableness in view of structure.
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Three single loop fuzzy logic controllers are designed independently for the control of boiler system of fossil-power plant. The control rules and the membership functions of proposed fuzzy logic control system are generated automatically without using plant model. The simulation shows successful results for wide range operation of boiler system of fossil-power plant.
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In this paper, we present the modeling and resonance frequency of M/G set simulator, which is designed for SSR(Subsynchronous Resonance) phenomenon. Resonance frequency analysis is performed by modeling and simulation. This simulation is preparation for experiments. So, simulation scenario is constructed in basis of detail experiments and simulation is performed by Matlab.
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The STATCOM(Static Compensator) resulted from the FACTS technology can generate or absorb reactive power rapidly so as to increase the transient stability and voltage stability. In this paper, effects of application of the STATCOM to the power system are analyzed from a viewpoint of improving voltage stability. The voltage stability is analyzed by use of repeated power flow method. The IPLAN, which is a high level language used with PSS/E program, is employed for evaluating the voltage stability.
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This paper proposes the design of STATCOM(static synchronous compensator) stabilizer for improving power system stability using fuzzy logic controller(FLC). The STATCOM DC voltage regulator contributes negative damping to the power system as the installation of STATCOM DC voltage regulator. STATCOM stabiliser is superimposed on the AC voltage regulator to compensate the negative damping effect. To evaluate usefulness of the proposed method, we perform the nonlinear simulation on a single-machine infinite bus system. As results of the simulations, the proposed method shows better control performance than PI controller in terms of damping effects.
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This paper presents a method for determination of UPFC control quantity in order to enhance the power system transient stability energy margin using Genetic Algorithms in multi-machine system. We use the minimization of energy margin as the object function in GA. To set critical energy, we use the potential energy boundary surface(PEBS) method. PEBS is one of the transient energy function(TEF) method. And we used the series voltage compensator as the UPFC model. The proposed method is applied to 6-bus, 7-line, 4-machine model system to show its effectiveness.
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This paper presents an comparative study on the effect of SSSC and UPFC to the power system static analysis. SSSC is used to control active power flow in transmission lines by controlling the phase angle of the injected voltage source which is in rectangular to the line current. UPFC is used to control the magnitude and phase of the injected voltage sources which are connected both in series and in parallel with the transmission line to control power flow and bus voltage. To compare the effect of SSSC and UPFC in power system static analysis, the PSS/E simulation program is used. As the FACTS device model such as SSSC and UPFC is not provided in PSS/E yet, an equivalent load model is used. This procedure is implemented by IPLAN which is an external macro program of PSS/E. The simulation results show that UPFC is more effective to improve bus voltage than SSSC in power system static analysis.
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본 논문은 PSCAD/EMTDC프로그램을 이용한 제주-해남 HVDC시스템의 해석모델 개발과 해석모델을 이용한 제주-해남 HVDC시스템의 운전특성에 대한 분석 내용을 기술하였다. 제주-해남 HVDC의 안정적인 운용을 위해서는 HVDC시스템의 이해와 함께 제주교류계통의 계통특성도 같이 고려되어야 한다. 이를 위해서는 제주-해남 HVDC와 제주교류계통을 포함하는 시뮬레이션 모델을 개발하여 다양한 상황에서의 시뮬레이션을 수행하여야 한다. 본 논문에서는 AC계통과 DC 계통의 상호작용에 의한 영향 분석과 교직연계계통의 계통운용 특성에 대해서 EMTDC 제주-해남 HVDC모델과 제주 AC계통 등가축약 모델을 이용하여 분석한 결과를 설명하였다. PSCAD/EMTDC는 EMTP와 더불어 전력시스템의 과도현상 해석을 위한 신뢰성 있는 프로그램이다.
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In this paper, a method for optimal design of PID controller using the immune algorithm(IA) has been proposed to improve the stability of A.C.-D.C. power system. To design optimal PID controller, formulation of AC-DC system equation, selection of stability analysis model, formulation immune algorithm and application model of optimal PID controller are proposed in order of the paper. In case of various disturbance, computer simulations have been performed and the proposed IA-PID controller has been compared with base controller which is conventional control technique for dynamics. From simulation results, it is demonstrated that proposed IA-PID controller has good dynamic responses about the disturbance of power system and reliability as compared with the base control.
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In resent years, electric power quality has become an important issue in power system. Voltage variation and compensation countermeasures of KEPCO system in west Gyeongnam have been simulated using PSS/E. In this paper, in the abnormal power system, the adaption of SVC, high speed and continuous control are simulated for voltage compensation. It is shown that the SVC is the optimal voltage compensation method in loop power system or 2 lines radial system.
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This paper presents the strategy of reactive power compensation which directly improves voltage stability. Voltage stability index that serves as an indirect assessment of voltage stability margin is derived from M.G.C.F. (Modified Generalized Curve Fit) algorithm incorporating load model. Weak buses are ranked by this stability index, and amounts of reactive power compensation are determined by function of reactive power and stability index. Using the proposed strategy, all load buses can be prevented from voltage collapse gradually. A simple illustrative example is given as well as simulation results obtained on 5 bus test system and 19 bus real power system.
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In this paper, an EMM(Equivalent Mechanical Model) is developed to explain the voltage collapse mechanism by reflecting the effects of reactive powers. The proposed EMM exactly represents the voltage instability mechanism described by the system equations. By the use of the EMM model the voltage collapse mechanism has been illustrated by showing the exactness of the results. It is also discussed a system transform in technique to eliminate the resistance component of the Thevenin equivalent impedance for practical applications.
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A study on the Estimation Technique of Frequency in the Power System using Digital Signal ProcessingFrequency and phasor are the most important quantities in power system operation. Frequency reflects the dynamic energy balance between load and generating power. To estimate of power system frequency, an accurate digital tracking algorithm by using phasor angle difference is presented. For an evaluation of the proposed technique, simulations by EMTP have been performed. Test results were showed the algorithm's accuracy under the effect of noise and changes in frequency and amplitude on the input signal.
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State estimation in power system is to estimate state variable value which minimizes the error from the real state measured by the gauge and connection state of the circuit breaker. In the past, it was difficult to determine measure function considering the correlation of the measured values. In this paper, an extended state estimation is proposed to process easily various kinds of estimation variable. The proposed algorithm is developed by expanding state variable concept based on many measured values and treating correlation between estimation variable and state variable, it is considered that the state variable satisfy some limitations named "Equality Limitation conditions".
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This paper presents a robust power system state estimator using linear programming(LP). LP state estimators minimize the weighted sum of the absolute values of the measurement residuals. In this paper, WLS(weighted least square) and WLAV(weighted least absolute value) state estimators are run with same measurement sets including bad data in order to compare the robustness to bad data and convergence characteristics of the two methods. Simulations with three test cases are performed and the results are presented, using IEEE 14 bus system.
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지금까지 전력계통에 대한 안정도 해석이 활발하게 논의되고 있다. 과도 안정도 해석의 시모의법에서 보편적으로 사용되고 있는 알고리즘들에서 기존에 사용되어졌던 SI법 중 Trapezoidal법이 알려져 있으나 그 데이터 오차가 많아 신뢰할 수 없기 때문에 거의 사용되지 않고 있는 현실이다. 본 논문에서는 이러한 시영역 모의 방법 중 SI법의 Trapezoidal법이 오차가 많은 단점을 없애기 위해서 전력계통 상태변수의 업데이트를 위한 새로운 알고리즘을 제안하였다. 제안된 알고리즘을 명확한 수학적 이론으로 증명하였으며, 제안된 방법을 전력계통에 적용하여 과도 안정도 해석을 한다.
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In this paper, we have simulated the transient stability of power system with dynamic loads. Dynamic load characteristics have an important influence on power system stability. In study of power system stability, motors form a major portion of the system loads. Induction motors and synchronous motors in particular form the workhorse of the electric power industry. Therefore modelling of motors is important in system stability. We investigate the effect of motors loads of Kwang Yang network with three phase fault.
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This paper presents a linear programming based Optimal Reactive Power Dispatch (ORPD) problem using modified sensitivity method. The proposed model minimizes the real power losses and improves the voltage profiles in the system with consideration of voltage and reactive power constraints. The method employs modified sensitivity relationships of power systems to establish both the objective function for minimizing the system losses and the system performance sensitivities relating dependent and control variables. The proposed algorithm has been evaluated with the IEEE 6-bus and IEEE 30-bus systems.
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This paper presents a hybrid algorithm for solving security constrained OPF in interconnected power systems, which is based on the combined application of evolutionary programming (EP) and sequential quadratic programming (SQP). The objective functions are the minimization of generation fuel costs and system power losses. In OPF considering security, the outages are selected by contingency ranking method. The control variables are the active power of the generating units, the voltage magnitude of the generator, transformer tap settings and SVC setting. The state variables are the bus voltage magnitude, the reactive power of the generating unit, line flows and the tie line flow. The method proposed is applied to the modified IEEE 14buses model system.
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This paper presents a Tabu Search (TS) based algorithm to solve the Optimal Power Flow (OPF) problem, converses rapidly to global optima by means of escaping local minima. In this paper, a new approach based on the random TS algorithm with continuous variable is proposed to find that a solution to the OPF problem within reasonable time complexity. To verify the efficiency of the proposed approach, case studies are made for IEEE 30-bus system.
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This paper presents standards of asset division for transmission and distribution company. In this study, we fix 3 scenarios to divide asset into transmission and distribution company. We don't show accurate results for asset division but propose direction in asset division.
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This paper is part of an ongoing project of KEPCO; 'A Study on Criteria and Standards for Transmission System Planning', The objective of this project is to develop the standards and procedures for transmission system planning. This involves reviewing published literatures, other documents of existing criteria and procedures, and various case studies of advanced countries which are already under the competitive electricity industry. This paper presents the result of evaluating Korean Power System as a pre-study for developing the Planning Standards of Korean Power System. For this, WSCC/NERC's performance criteria for planning transmission system, and KEPCO's 'Long Term Transmission System Planning Criteria' are considered. By doing this, the level of performance criteria which should be applied to Korean Power System and the detailed procedures which would be used in system test were reviewed.
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This paper illustrates a new method for reliability evaluation at load points in a composite power system. The algorithm includes uncertainties of generators and transmission lines as well as main transformers at substations. The CMELDC based on the new effective load model at HLII has been developed also. The CMELDC can be obtain from convolution integral processing of the outage capacity probabilistic distribution function of the fictitious generator and the original load duration curve given at the load point. The CMELDC based on the new model at HLII will extend the application areas of nodal probabilistic production cost simulation, outage cost assessment and reliability evaluation etc. at load points. The characteristics and effectiveness of this new model are illustrated by a case study of a small test system.
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This paper presents a efficient algorithm for calculating power transfer capability in interconnected large power system. The approach is based on interior point method. The efficiency of this method is favorable for large systems. IEEE RTS-96 power system is utilized to evaluate the proposed method.
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Data Mining is a issue of Database fields. Data mining is discovered optimally interesting rules for user, which are results of specific requirements of user. through past data. Through to analyze and to statical suppose interesting rules. we can prepare future faults of system. In this paper, we present a new way which is discovered and repaired faults of Electric Power system using Data Mining techniques.
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This paper presents a new eigenvalue sensitivity analysis method based on AESOPS algorithm. The additional calculation steps are derived from the original AESOPS algorithm. The additional calculation steps are performed directly from the AESOPS algorithm after iteratively calculating electro-mechanical oscillation modes in small signal stability problems. Owing to the structural characteristics of partitioned sub-matrix of state space equations, the partial differentiation terms of system state matrix for obtaining eigenvalue sensitivity indices can be calculated very simply. By the method presented in this paper, the AESOPS algorithm can be used in controller design problem as well as analysis of small signal stability problem.
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This paper represents impedance calculation of the distance relay using PSCAD/EMTDC software for transmission line involving the UPFC (Unified Power Flow Controller) device, which is the most vigorous component of FACTS. The presence of the UPFC significantly affects the line parameters of transmission system, which are also influenced by the distance relay setting. Moreover depending on the UPFC location and its parameters, zones of setting the distance relay will be changed. The presence of the UPFC in the fault loop affects both voltage and current seen by relay. Therefore, the distance relay should be taken into account the variable injected voltage of the UPFC.
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This paper discusses the dynamic test of distance relay on transmission line connected unified power flow controller(UPFC) using the real-time digital simulator(RTDS). Depending on operating conditions of UPFC, the trip characteristics of distance relay is influenced by the prefault conditions. In this paper, UPFC is established using the RTDS and then relay test is performed on real time.
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this paper presents the distance relay using wavelet transform and least square error method. Wavelet transform detect the faults in the high frequency region and remove the noises in the low frequency region. The variable window length LSE determine optimal window length to each fault case and estimate fault impedance very quickly.
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This paper presents the protective relaying scheme as a method for discriminating of power transform's transient state associated with magnetizng inrush state, over-exciting state and internal fault using wavelet based neural networs. The simulation of EMTP with respect to different fault, inrush condition and over-exciting condition in transformer have been conducted, and the result prove that the proposed method is able to discriminate between inrush magnetizing current and internal fault.
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Parallel operation scheme to several transformers is adopted because of the load increase, economic problem, or load shedding. For the transformer's parallel operation, loads proportional to each transformer's capacity must be allotted, and circulation currents must be limited as much as without causing any problem in a real operation. But, both transformers in parallel operation can be tripped when either faults at lower voltage side of a transformer or faults in a bus occurs. Therefore, parallel operation scheme to distribution transformers in Korea is not adopted in a normal state but only when loaded or load-shedded. These are due to the insufficiency of the construction in communication network and AVR scheme. Besides that, those are because bus bar protection scheme to lower voltage side of a transformer is not applied. In spite of enormous initial investment costs, advanced countries take so much account of power system reliability and stable supply that they adopt the parallel operation scheme in a normal state. One of the problems in parallel operation is the overheat of transformers due to the excessive circulation currents. This paper presents the scheme that controls voltages between both transformers using circulation currents that occurs in parallel operation.
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This paper describes the digital relay simulator system using digital signal processor. The simulator system has two parts, one is software and the other is hardware part. The simulation software has variety calculation engines ; EMTP simulation data file conversion, user define simulation data generation, sequence data generation, data analysis engines. etc, these are designed upon GUI. And simulator software provides easy control interface for users, the simulator software performs on every MS Windows OS. The simulator hardware design uses 32bit floating point DSP(TMS320C32) architecture to achieve flexibility and high speed operation.
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On this research, to catch up with international trend on the power system utilities move to be digitalized and move to network is certainly technological on the global business world, to compete with advanced foreign countries in the range of transmit and distribute power system and to take possession of first market share within country, we talked over a monitoring system to diagnose, monitor ACB(Air Circuit Breaker) only which is operated on the low level voltage Power plant. AMS(ACB Monitoring System) have be configured with several modules such as engine module which acquire engineering data from HICM360/860(Communication Control Units) and analyze and save it, database module which restore data and can be inquired, system monitoring view module which reflects fields information within a second, realtime trend window, historical trend window, reports as daily and yearly. In a near future, AMS must upgrade GUI to have easy to handle and have to have a field test to fit on real plants, so it will have faith in system reliability as it can apply power plant monitoring system in wide.
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This paper presents a new classification method for high impedance faults in power systems. Results of phase plane trajectory with Clarke modal transformation using postfault current and voltage are utilized to classify types of arcing faults. The performance of the proposed method is tested on a typical 154 kV korean transmission system under various fault conditions using EMTP. As can be seen from results, phase plane trajectory of postfault current should be combined with that of o component from Clarke modal transformation to give reliability of clear fault classification. Thus the proposed method can classify arcing faults including LIFs and HIFs accurately in power systems.
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For protection of power system, it is a prerequisite to action characteristics of protective relay about a changing environment in power system and correcting the setting value. A substation operator always reside to correct of a relay, however there are problem of efficiency. Recently, power system operation become manless and supervision and control of incident is required anywhere, introduction of new concept as a intellectual manless protective relay is a recent trend. This paper is the web-based protective relay setting program that a manager make an analysis of operation and incident of power system through the web at a remote place corresponding recent manless of system and approach the protection relay and then can correct the error.
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This paper presents performance analysis on a low pass filter of a CT saturation detecting algorithm using difference. At the instants of beginning/end of saturation, the shapes of the secondary current are changed significantly though secondary currents are continuous. At the instants, the second-order or third-order difference of the secondary current has big values because of discontinuity of the first order difference. Thus, the third difference of the current is used to detect the beginning/end of CT saturation. An antialiasing low pass filter removes high frequency components and causes phase lag. A CT saturation detecting algorithm using difference of CT secondary currents is affected by the low pass filter. The algorithm is tested with cutoff frequencies of the filter for the two sampling rates of 64[S/C] and 32 [S/C]. The results of various test cases indicate satisfactory performance of the algorithm.
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Accurate detection and classification of faults on transmission lines is vitally important. High impedance faults(HIF) in particular pose difficulties for the commonly employed conventional overcurrent and distance relays, and if not detected, can cause damage to expensive equipment, threaten life and cause fire hazards. Although HIFs are far less common than LIFs, it is imperative that any protection device should be able to satisfactorily deal with both HIFs and LIFs. This paper proposes an algorithm for fault detection and classification for both LIFs and HIFs using Adaptive Network-based Fuzzy Inference System(ANFIS). The performance of the proposed algorithm is tested on a typical 154[kV] Korean transmission line system under various fault conditions. Test results show that the ANFIS can detect and classify faults including (LIFs and HIFs) accurately within half a cycle.
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This paper describes an accurate fault location algorithm based on current distribution factors. To prove the effectiveness of proposed method, we used by simulation data from EMTP. The proposed algorithm using the current distribution factors is independent of fault resistance and load flow variation.
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This paper describes the definition of a substation automation system and presents core components and its layered structure based on the modular approach. Also it introduces the implementation and deployment of our substation automation system which was adopted to the field recently.
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오늘날 전력계통에서 개폐기, 차단기들은 케이블 충전이나 선로충전, 콘덴서 뱅크의 부하전류와 같은 진상 전류의 스위칭을 많이 하게 된다. 이때 진상 전류의 크기는 개폐기나 차단기의 정격 차단전류보다 그 크기가 매우 작다. 그러나 차단 책무는 개폐기나 차단기에 상당히 가혹하며, 이는 차단 후 극간에 걸리는 과도한 회복전압에 기인한다[2,3]. 상용주파 회복전압은 차단 성능을 검증하는 요소중의 하나로서 사고시 임피던스에 의해 변화한다. 본 논문에서는 IEC 60265-1에 따른 케이블 충전 전류 시험(Test duty 4a) 회로를 모의하고 IEC 60265-1에서 규정하는 규정치 이내에서 영상분 임피던스의 변화에 따른 상용주파 회복전압의 변화를 살펴보았다[1].
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We must consider resistance capacitance and their circuit connection condition for cable charging current test by IEC60265-1. According to their values and circuits, the ratio of applied voltage and transient recovery voltage are much different. This paper is convinced of TRV waves and proposes the optical circuit required at the standard via the simulation of all circuit conditions.
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This paper presents algorithms to evaluate reliability of distribution power system taking into consideration customer interruption cost. Customer interruption cost is considered as one of the valuable index to estimate reliability of the distribution power system from customer situation. Also, this paper estimate evaluation results regarding the reliability of distribution power system using a sample model system. Finally, evaluation results of unserved energy and system interruption cost based on customer interruption cost are shown in detail.
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This paper deals with the analytical approach for the reliability assessment in radially operated distribution systems. The approach can estimate the expected reliability performance of distribution systems by a direct assessment of the configuration of the systems using the reliability indexes such as NDP(Non-Delivery Power) and NDE(Non-Delivery Energy). The indexes can consider the number and configuration of the load, but can not consider the characteristics of the load which is the one of the most important factor in the investment cost for the distribution systems. Therefore, This paper presents the new indexes considering the expected interruption cost for the load section and shows the effectiveness by simulating at the model systems.
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본 논문은 배전 계통 정전복구에 있어서 빠르고 효율적인 방법을 보여준다. 정전복구에 문제는 제약적인 최적화 문제로 계산되어지고, 빠른 시간과 더 우수한 방법을 요구한다. 왜냐하면 비고장 정전 구역는 가능한 빠르게 복구되어져야 하기 때문이다. 제한된 방법는 빠른 시간안에 해를 구할 수 있으며, 계통망의 개폐기와 선로의 조류계산을 통한 허용 전류 가중치를 이용한 딕스트라 알고리즘에 의해 정전복구 방법이 설계되어 진다. 시뮬레이션 결과는 36모선에서 제안된 방법의 경우의 유용성과 효율성이 나타난다.
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In recent years, both electric utilities and end users have expressed their deep concerns about the quality of electric power. Especially, voltage sag which is one of power quality disturbance is very serious power quality problem on the power system. Voltage sag is a decrease to between 0.1 and 0.9 pu in rms voltage magnitude on the power system for durations from 0.5 cycles to 1 minute. These voltage sags are usually caused by fault conditions, overloads, and starting of large motors. The wavelet transform has attracted considerable attention in the field of power quality analysis recently. It has proved to be a powerful tool to study those transients that have time-localized information. In this paper, different types of voltage sags are simulated by using EMTP. This paper proposes the effective technique for voltage sag detection using wavelet transform.
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This paper presents a chaotic neural networks to solve the distribution feeder reconfiguration problem for loss reduction. Feeder reconfiguration problem is the determination of switching option that minimizes the power losses for a particular set of loads in distribution systems. A chaotic neural networks is used to determine the switching combinations, select the status of the switches, and find the best combination of switches for minimum loss. The proposed method has been tested on 32 bus system, and the results indicate that it is able to determine the appropriate switching options for optimal configuration.
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This paper presents an efficient algorithm for the loss minimization in distribution systems. Ant colony algorithm is suitable for combinatorial optimization problem as network reconfiguration because it use the long term memory, called pheromone, and heuristic information with the property of the problem. The proposed methodology with some adoptions have been applied to improve the computation time and convergence property. Numerical examples demonstrate the validity and effectiveness of the proposed methodology using 32-bus system.
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In this paper we proposed the on line volt/var control schemes of the load Tap Changer (LTC) transformer and shunt capacitor bank for distribution volt/var regulation. In the existing volt/var control of the distribution substation, the voltage of feeders and var of distribution systems is mainly controlled by the LTC transformer tap position and on/off status of the shunt capacitor. The LTC and shunt capacitor bank has discrete operation characteristics and therefore it is very difficult to control volt/var at the distribution networks within the satisfactory levels. Also there is limitation of the operation times of the LTC and shunt capacitor bank because it is affects on their functional lifetime. The proposed volt/var control algorithm determine an optimal tap position of LTC and on/off status of shunt capacitors at a distribution network with the multiple feeders. The mathematical equations of the proposed method are introduced. Simple case study was performed to verify the effectiveness of the proposed method.
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This paper represents the application of the Static Var Compensator (SVC) on the electric railway power supply system to compensate for the voltage drop. The high reactance of line and a heavy train load consume a significant amount of the reactive power which results the voltage drop. This paper shows that the SVC is necessary for voltage compensation in the railway power supply system and verify effectiveness of the SVC through the simulation by using PSCAD/EMTDC. In this paper, the case studies were performed with the various line length and train loads.
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자가용 발전기는 주로 디젤엔진과 동기발 전기로 구성된다. 자가용 발전기의 안정적인 출력을 위해서는 디젤엔진을 정속으로 운전하는 것이 중요하다. 디젤엔진의 속도 제어기로는 일반적으로 조속기가 사용되는데, 본 논문에서는 DSP를 이용한 디지털 조속기를 개발하고 정속제어를 위한 운전 알고리즘을 제시하였다.
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This paper deals with dynamic study of co-generator system with derived dynamic models of generator, excitation system, and turbine/governor from field tests. Mainly this study concentrates on frequency control of demand users that have co-generator by under-frequency relay. We simulates dynamic study of co-generator system using EMTDC.
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This paper describes development of electric are furnace model for harmonic analysis, which is based on field data. The proposed model is used to analyze harmonics in actual power system, and the results illustrate the model's capabilities.
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본 논문에서는 다 채널 위상 측정 장치를 전용하드웨어로 구현하기 위한 설계 구조에 대하여 제시하였으며, 연산량이 많은 곱셈기를 시분할에 의해 공유하는 구조를 제시하였다. 또한 페이저 측정을 위한 Sliding-DFT 알고리즘을 순환 구현할 경우의 근사 구현 오차에 관한 정량적인 연구를 수행하였다. 이러한 오차 영향의 해석을 기반으로 하여 곱셈기 공유 구조를 적용한 위상 측정 장치를 설계하고, 설계한 하드웨어의 내부동작을 보여주는 시뮬레이션을 통해 설계의 정확성을 확인하였다.
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In this paper, the household AC power line network is characterized for the low bit rate power line communication (PLC) in the frequency range from 10kHz to 450kHz. Various types of electric apparatus and the power lines constitute the network topology, and the PLC channel transfer function and the channel impedance are derived based on the constructed network topology. The channel characteristics derived with the lumped circuit model and the distributed circuit model are compared using the computer simulations. The effect of the wave reflection and signal distortions are also investigated.
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With the development of Computer & Communication Technology, nowadays many people are interested in remote metering, and many vendors are suggesting various remote metering solutions. KEPCO (Korea Electric Power Corporation) adopts some of these to some customers who uses a lot of electric power, also continues researching them. But, currently used electronic watt-hour meters vary in terms of communication protocol and data structure by the vendors. So we have to know each vendor's communication protocol and data structure to construct a remote metering system, or to find problems in it. But that's impossible to know each vendor's protocol and data structure because they are reluctant to tell those to outside the company. To solve these problems and to make a much more cost-effective metering system, KEPCO developed standard communication protocol between meters and PC (or metering server), and defined standard functions and data structure which can be used by everyone easily. Those developments support standard interface for every vendors' meters. And Those will be adopted by KEPCO for a part of a new metering standard for electronic watt-hour meters.
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This paper describes the optimizing method of direct load control (DLC) considering unit commitment which is based on dynamic programming. To solve DLC problem considering unit commitment, 3-dimensional dynamic programming as a new unit commitment method is developed. And, energy payback is concerned for DLC. As a result, optimization of operating schedule with DLC is possible. This method is applied to the test system, and usefulness of the method is verified.
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This paper studies for the optimal operation of BESS. The goal must be optimized electricity charge of the customer sides owned time-of-use rates in this paper. Therefore, the least of cost is caused by BESS installation, Multi-Pass Dynamic Programming (MPDP) algorithm is applied to the customer for the optimal operation determination in this paper. It is to solve the optimal solution under the constraints. No matter how become one stage in general, problem is divided into several stage in series in this algorithm. Regardless of the decision step, MPDP is only accomplished based on the state of stage in the present. To investigate the efficiencies of the algorithm, it is applied the typical load curve to the cutomer owned Time-Of-Use(TOU). Result shows that the maximun economic benefits of the battery energy storage system can be achieved by the purposed algorithm.
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본 논문은 뉴로-퍼지 모델의 구조 학습을 이용한 단기 전력 수요 예측시스템에서 예측치별로 신뢰도를 계산하는 체계적인 방법을 제안한다. 예측시스템의 신뢰도를 추정하는 작업은 특히 신경회로망과 같은 경험적 모델을 실제 활용하기 위해서 필수적인 연구로 인식되고 있다. 본 논문에서 제안하는 출력별 신뢰 구간 계산 방법은 지역 표현하는 뉴로-퍼지 모델의 특성을 활용하여 학습된 퍼지 규칙 각각에 대해 신뢰도를 추정하는 Local reliability measure 기법을 사용한다. 제안된 신뢰도 계산이 가능한 단기 전력 수요 예측시스템은 먼저 결정 트리를 이용하여 초기 구조를 생성하고, 이를 초기 구조 뱅크에 저장한다. 저장된 초기 구조 뱅크를 이용하여 뉴로-퍼지 모델을 학습하고, 학습된 퍼지 규칙의 신뢰도를 추정한다. 제안된 시스템의 실효성을 검증하기 위해서 한국 전력에서 수집한 1996년과 1997년의 실제 전력 수요 데이터를 이용하여 한 시간 앞의 수요를 예측하는 모의 실험을 수행하고 실험 결과를 비교 분석한다.
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본 논문은 뉴로-퍼지 모델의 구조 학습을 이용하여 단기 전력 수요 예측시스템을 개발하기 위한 체계적인 방법을 제안한다. 제안된 단기 수요 예측시스템은 1시간, 24시간, 168시간의 예측 리드 타임을 갖고 예측을 수행하기 위해서 요일 유형과 시간 별로 총 96개의 초기 구조를 미리 생성하고, 이를 초기 구조 뱅크에 저장한다. 예측이 수행되는 시점에 해당하는 초기 구조를 선택하여 뉴로-퍼지 모델을 초기화하고, 학습하고, 예측을 수행한다. 제안된 예측시스템은 단지 2개의 입력 변수만을 이용하기 때문에 간단한 모델 구조를 가질 뿐 아니라 학습된 퍼지 규칙을 해석하는 것이 매우 용이하다는 장점을 갖는다. 제안된 방법의 실효성을 검증하기 위해 1996년과 1997년의 한국전력의 실제 전력 수요 데이터를 이용하여 1시간, 24시간 168시간 앞의 전력 수요를 예측하는 모의 실험을 수행한다. 실험 결과 제안된 방법은 단지 2개의 입력 변수를 사용함에도 불구하고 기존의 예측 방법과 비교하여 예측의 정확도와 신뢰도 측면에서 우수한 성능을 얻는다.
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This paper presents the application of Parallel genetic algorithm and parallel tabu search to search an optimal solution of a unit commitment problem. The proposed method previously searches the solution globally using the parallel genetic algorithm, and then searches the solution locally using tabu search which has the good local search characteristic to reduce the computation time. This method combines the benefit of both method, and thus improves the performance. To show the usefulness of the proposed method, we simulated for 10 units system. Numerical results show the improvements of cost and computation time compared to previous obtained results.
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This paper reviews technology for power quality differentiated supply in power system. Since price and power quality has been single goods in the light of customer-side view point but hereafter it is essential for power market to introduce multiple goods which is composed of differentiated combination between them. This paper should like to work out strategy for power quality differentiated supply in domestic power system by comparison characteristics of differentiated background and its relevant various theory.
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The transmission networks are not perfect conductors and a percentage of the power generated is therefore lost before it reaches the loads. This network loss contributes to the cost of suppling power to consumers, and must be considered if the most efficient dispatch and location of generators and loads are to be achieved. In this paper, marginal loss factors are calculated for 12 load cases that represent the impact of marginal network losses on nodal prices at the transmission network connection points. Based on comparison analysis of marginal loss factors for 12 loaf cases, we can find the regional MLF characteristics in KOREA.
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Transmission line data are very important for studying loadflow. Short circuit data(positive sequence, zero sequence) of 345kV and 154kV line were calulated and compared with KEPCO's line characteristics data. This Paper presents method of verification and complement of line data in PSS/E loadflow data using TMLC (Transmission Line Characteritics) program.
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Jeong, S.H.;Kim, D.K.;Choi, S.B.;Lee, D.I.;Kang, J.W.;Gwak, B.M.;Tack, E.G.;Yoon, H.H.;Kim, J.S.;Park, J.H.;Kim, H.S. 340
This paper introduces the program of calculating the permissible current-carrying capability of underground power cables. Its program is developed the KEPCO's standard based on IEC 287. -
Jeong, S.H.;Kim, D.K.;Choi, S.B.;Lee, D.I.;Kang, J.W.;Gwak, B.M.;Tack, E.G.;Yoon, H.H.;Kim, J.S.;Park, J.H.;Kim, H.S. 343
This paper calculates the reduction factors of JCS 168E standard and IEC pub 287-2-2 according to installing groups of cables in a tunnel in Korean, respectively. Also, this paper proposes a method fat calculating reduction factors for groups of cables in free air. -
This paper analyze the interference problems, especially AC corrosion when the gas pipeline is buried with power cable in the same submarine tunnel. This paper present the results of the study about AC corrosion, limitation of safety voltage, modeling of power cables, gas pipeline and grounding systems, analysis of induction voltage according to various circumstance, soil resistivity, length of tunnel. and so on.
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Because of the continuous growth of energy consumption and also the tendency to site power lines and pipelines along the same route, the close proximity of power lines and buried metallic pipelines has become more and more frequent. Therefore there has been and still is a growing concern about possible hazards resulting from the influence of power lines on metallic pipelines. When a ground fault occurs in an electrical installation the current flowing through the earthing electrode produces a potential rise of the electrode and of the neighbouring soil with regard to a remote earth. This paper analyzes the effects of ground faults when the current will flow into the soil from the foot of 345kV transmission line tower.
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국내에서 CCPU(Cable Covering Protection Unit)의 결선방식은 97년 이전에는 대지간 방식을 취하였고, 97년 이후에는 교락 비접지 방식을 채택하여 적용중이다. 따라서 국내 선로 중에 97년 이전 준공되어 97년 이후에 증설한 선로에서는 CCPU의 연결방식이 대지간 및 교락 비접지 방식이 혼용되어 사용되어 왔다. 본 논문에서는 CCPU의 결선방식이 혼용된 선로에서 문제점을 규명하고 개선안을 제시하였다.
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In general, when power lines, D/L and T/L are running parallel with bridge of metallic structure or crossing each other, AC corrosion is occur due to AC interference. This paper presents the results of AC interference mechanism, decision criteria of AC interference, and AC corrosion effects by analysis of AC induction voltage on pier and abut of bridge.
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In this paper, 3-dimensional charge simulation method was applied to analyze electric field distributions of special conductor bundles equipped with spiral rods for reducing aeolian noise in a corona cage. We found calculation error of this method was w a reasonable boundary of 0.5%.
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Every engineering discipline has, in recent year, felt the impact of computer-aided analysis and design Normally the studies of power system analysis by computer are load flow, short circuit and harmonic calculation, the amount the voltage deviates from motor starting, reliability and system stability. These studies are very important from the operating and planning points of power system. This paper presents analysis of load flow, short circuit current calculation, the effect for voltage deviation of induction motor starting and harmonic distortion in power system of continuous casting(C. C) plant. The resulting of analysis is applied the configuration and design engineering of power system.
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Koh, Hee-Seog;Choi, Jong-Kyu;Ji, Bong-Ho;Lee, Hyun-Moo;Kim, Ju-Chan;Lee, Chung-Sik;Park, Kyu-Ho 365
We are explaining shapes factor of ground electrode in a rectangular parallelepiped which is based on analysis of a hemisphere electrode. Actually, a hemisphere electrode is hardly used in a plan and construction, because it is difficult for somebody to use one. This thesis describes the method of grounding resistance estimation which is used the water tank model and electrode shopes factor. -
There are various shapes such as square, rectangular, L, and T type in the grounding systems of substations. IEEE St-d suggests the formula considering the characteristics of the various grounding systems but the final value can not be taken, and them the analysis of complicated computer program for obtaining the more accurate value is needed. In his paper, by using CDEGS(Current, Distribution, Electromagnetic and Soil Structure Analysis) the estimated functions derives form the modification coefficient for each of various types above mentioned. The mesh voltage expected can be obtained without the conventional expensive program using compensating methods that multiply IEEE formula by the estimated function.
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Main functions of Generator Circuit Breaker(GCB) is cut the generator off from the main transformers and the aux. transformers when plant trip or startup. In this paper, the design requirements For GCB of nuclear power plant is examined. NRC presented the area of review, acceptance criteria and review procedures of GCB in the SRP(Standard Review Plan). In Korea, APR1400 adapted the GCB in main power system.
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FACTS technology is developed into the sophisticated system technology which combines conventional power system technology with power electronics, micro-process control, and information technology. Its objectives are achieving enhancement of the power system flexibility and maximum utilization of the power transfer capability through improvements of the system reliability, controllability, and efficiency[1]. As a series and shunt compensator, UPFC consists of two inverters with common dc link capacitor bank. It controls the magnitude of shunt bus voltage and real and reactive power flow of transmission line[2]. In this paper, we present the design and control algorithm of UPFC simulator for KERI simulator. As a control algorithm is implemented by digital controller, we consider sample-and-hold of signals In this simulation, we use EMTDC/PSCAD V3.0 software which can simulate instantaneous voltage and current.
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When a wide area blackout occurres, reenergizing transmission lines should be done at first. The KEPCO(Korea Electric Power Corporation) divides whole power system grid into seven subsystem, and each subsystem has one of two blackstart power plants which are usually hydro or combined-combustion type, one priority power plant which should be first supplied with electric energy, and transmission lines between them. Voltage rising, line charging, and operation stability problem should be considered when these lines are reenergized. In this paper, building-up process for primary transmission system that should be energized at first is analyzed.
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This paper deals with the compensation of the impact of highly varying loads on the power system using a static var compensator (SVC). A procedure to determine a suitable capacity of the compensator is proposed, and it is implemented using PSCAD/EMTDC. The proposed method is applied to a test system to illustrate its capabilities.
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This paper presents electric power use pattern by end-use for each industry in Korea. Until now, the survey for industrial electric power use pattern by end-use has been sporadic and unsystematic. This paper presents the systematic survey and analysis for electric power use pattern by end-use. The major survey items include rate power and the number of equipments, and operation rate, etc. This paper will make good use of data base construction and policy for DSM.
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The change of the electricity charge from cost base to price base due to the introduction of the electricity market competition causes consumer to choose a variety of charge schemes and a portion of loads to be affected by this change. Besides, it is required the index that consolidate the price volatility experienced on the power exchange with gaming and strategic bidding by suppliers to increase profits. Therefore, in order to find a mathematical model of the sensitively-responding-to-price loads, the price-sensitive load model is needed. And the development of state-of-the-art technologies affects the electricity price, so the diffusion of high-efficient end-uses and these price affect load patterns. This paper shows the analysis on learning curves algorithms which is used to investigate the correlation of the end-uses' price and load patterns.
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The existing data systems and structures scope primarily the data evaluation which is performed by only corresponding or Interesting bodies. And the bodies i.e. electricity and energy utilities' quarters don't exchange the data each other because methods, purposes, etc. of the collection are different. This paper presents a new integrated system of data collection, administration and evaluation on the power system. And the system is applied to PSS/E data structures.
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Coal power plants are large, non-linear systems with numerous interactions between its component parts. In the analysis of such complex systems, dynamic simulation is recognized as a powerful method of keeping track of the myriad of interactions. This paper shows and discusses the developed analysis model, such as the forced draft fan the primary air fan, the furnace and burner system, air preheater and induced draft fan, etc. in accordance with BMCR condition of boiler using the Modular Modeling System(MMS) software.
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A new automatic generation control (AGC) signal transmission format will be adopted in the new energy management system (EMS) that KEPCO is planning to install for managing and operating the power system efficiently under the deregulation environment. Therefore, it is necessary for the power plants to make the AGC processing logic fit the new AGC signal flow format. In this work, we compare the new signal transmission scheme with the conventional one in view of its effect to the signal flow in the distributed control systems (DCS) that ale equipped in power plants to handle AGC operation. Then we propose a basic logic configuration for DCS that can be used with the new signal format. In the design of the configuration, some practical issues that should be discussed for the proper operation of the plants are considered.
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This paper describes a power flow method for distribution systems, applying the method of symmetrical component to back/forward sweep method. The proposed algorithm is effective for unbalanced radial distribution system, with process of AVR(Auto Voltage Regulator), shunt capacitor. The proposed method was compared with the conventional Back/forward sweep method by using three phase unbalanced distribution systems of 123 nodes.
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This paper is detecting a partial discharge(PD) using antenna. The wavelet transform is applied for the analysis of PD pulse signal. It is difficult to identify PD signal using electromagnetic waves detected by antenna. And so we can removed noise of PD signal using wavelet de-noising method.
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상용주파 자계와 인체의 건강에 대해서 과학적인 해명 목적으로 Specific Pathegen Free Room을 제작하였다. 환경 실험실의 설치조건 중 자계 노출장 치간의 Stray Field의 영향이 중요하므로 SPF Room을 배치하는 데 있어 각 자계노출장치의 Stray Field로 인한 노출장치의 자계 균일도를 예측 계산하고 그 결과를 바탕으로 최적 배치를 구하였으며 실제 자계 균일도를 측정한 결과 목표한 바와 같이 2%이내임을 확인하였다.
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Shin, Doo-Sung;Choi, Soo-Geol;Ko, Eui-Gon;Ji, Eung-Seo;Min, Byung-Kwan;Kang, Chae-Hong;Jeon, Seung-Ik 410
초고압 CV 케이블용으로 다양한 형태의 접속함이 사용되고 있으나, 최근 케이블 시스템의 사용 전압이 초고압화됨에 따라 접속함 또한 고품질, 고신뢰성이 요구되고 있다. 따라서 공장에서 엄격한 품질 관리가 용이하고, 현장에서 쉽게 조립할 수 있는 프리몰드형 접속함(Premolded Joint: PMJ)의 사용이 급격하게 증대되고 있다. 본 논문에서는 국내에서 최초로$110kV{\sim}170kV$ 전압급의 PMJ 접속함 개발에 관하여 소개 하였다. 전기적, 기계적 및 열적 설계의 개념을 간략하게 소개하였으며, 접속함의 초기 성능 및 장기 신뢰성을 검증하기 위한 시험 및 평가 결과를 소개하였다. -
This Paper presents the 2-step load cycle of daily load curve for representative load pattern of power distribution transformer. We decide the representative load pattern of distribution transformer in domestic using the pattern classification algorithm. The K-mean method is used for the pattern classification algorithm. The acquisition equipment of field load data is utilized for 96-sample distribution transformers and the field data is used in the construction of the database for the creation of daily load pattern.
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The large distribution automation system for metropolitan city was developed in KEPCO just recently. This system has many functions for remote control and data acquisition, and it will be linked the other computer aided system such as NDIS(new distribution automation system) and SCADA(supervisory control and data acquisition) to construct the database of DAS(distribution automation system).
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This paper describes development of a preventive diagnostic system for the substation equipments. Data acquisition system, communication control unit and computer systems have been developed in the recent 2 years. The developed system is operating in 345kV U-Ryung substation for performance and environment tests.
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현재 우리 나라는 대용량 전력공급의 필요에 의해 765kV 초고압 송전망과 변전설비를 증설하고 있다. 앞으로 765kV 변전소는 우리 나라 전력계통의 중추적 역할을 담당하게 될 것이다. 하지만, 아직까지도 이에 대한 교육은 미진한 상태이다. 따라서 이러한 765kV 변전설비에 대한 전반적인 내용을 교육하기 위하여, 플래시와 자바를 이용한 교육용 OJT 문서를 인터넷상에서 상세하고 보다 편리하게 학습할 수 있도록 개발 하고자 한다. 웹 기반의 765kV 변전설비에 대한 교육용 OJT는 학습자가 능동적으로 대처할 수 있도록 구성되어 진다. 또한 앞으로 점차 증가하게 될 765kV 변전소에 관한 내용을 다루어 봄으로써, 765kV 변전설비에 대한 개괄적인 내용도 알 수 있고, 앞으로의 변전설비 추이에 관한 내용을 짐작할 수 있도록 한다.
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한국의 배전선로 자동화시스템은 기술발전과 경제성을 고려하여 대규모와 소규모 시스템으로 나누어져 개발되어 설치 운영되고 있으며, 2001년 말까지 173개 사업소에 소규모 시스템이 설치 완료될 예정이다. 2002년부터는 서울시내를 시작으로 대규모 시스템이 설치되고 대도시를 중심으로 점차 소규모 시스템도 업그레이드 할 계획이므로 금년은 중대한 전환점이라 할 수 있다. 따라서 그동안의 배전선로 자동하 추진현황을 살펴보고 문제점을 고찰해 보았다.
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The plan of intercomparison test for high-current system was discussed concretely in the technical committee of STL in 2000. This paper describes the present state of the world, the plan & procedure of intercomparison test and test expenses for high-current system. In conclusion, this mentioned the matters that our country should prepare urgently.
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Calibration procedure of high-current measuring system has been promoted to ensure the traceability of national of international standard with the similar method of high-voltage measuring system. This paper introduces general procedure to establish the traceability and type & performance tests for current-voltage transformer, transmission system, recorder and evaluation procedure as the result of intercomparison tests performed 7 laboratories of Europe, and introduces briefly the test method of itemized list from type & performance tests. So we would apply the standard as the criteria that can be enforced temporarily in korea.
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As the new large buildings are continuously being built with the advanced technology and skills, an adequate size of electric room needs to be obtained so that engineers establish an efficient and reliable system in the electric room. Considering the current capacity, its expansion and its connecting system, the final size of it should be determined in order to bring an effective use of the building. Usually the extension of electricity capacity is on the increase after construction and it comes from the lack of scientific evaluation on the electric room. Later when the expansion of computer and important electric equipment that needs much capacity is impossible, it will cause a great deal of damage to the renting business of the building as well as becomes the unstable factors of the whole system. Therefore, it is important to have the exact method of calculating the effective size of electric room, the heart of the building, especially when the value of land price is very high. In addition, it should be calculated in an accurate way due to the diversification of the system and the compact size of the electricity equipment. However, the research on this area and the comparison and evaluation of the size after construction have not been made enough and the results of them have not been applied when calculating a new size of electric room. Accordingly, this study examines three methods prescribed in the standards of electricity installation technology through case analysis and suggests substantial data by system, capacity, and purpose.
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We have developed the testing software for KEPCO operators to maintain the small-scale distribution automation system effectively. The testing software is used to monitor the present status, to measure the analog value(voltage, amperage) and to control the switch and FRTU(Feeder Remote Terminal Unit) in order to find out a disabled part of the system. And at the stage of inspection of the switch and FRTU, it can screen the inferior one.
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This paper described the switching overvoltage analysis on the 345kV and 154kV transmission system by EMTP(Electromagnetic transient Program) for the enactment of current insulation design standards of KEPCO. The air clearance design of current transmission tower was reviewed and revised by the calculated result, considering swing angle for the each type of insulator string by the wind velocity.
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This paper described the calculation results of lightning flashover rate on the 345kV and 154kV transmission system of KEPCO. The back-flashover rate and shielding failure rate was calculated by FLASH(lightning flashover rate calculation program from IEEE) and KEPRI's own program which is based on the EGM(Electro Geometrical Model) method. The estimated lightning flashover late of 345kV transmission system of double circuit was 1.0 flash per 100km-year, and the lightning flashover rate of 154kV transmission line was 2.0 flash Per 100km-year approximately.
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Grounding resistance is the basic performance indicator of grounding electrodes and the resistance has been calculated by simple equations, which is based on the assumption of uniform soil model. In this paper, tower grounding resistance is calculated assuming horizontally 2 layered soil model using finite element analysis method. A simple grouding design graph has been resulted from the calculation results.
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This paper described the unbalanced voltage on the tertiary bus of a single Phase auto transformer in the case of parallel operation with different manufacturer at each Phase. The unbalanced capacitances between primary to secondary winding, secondary to tertiary winding and primary to tertiary winding makes unbalanced bus voltage in the tertiary bus side. The unbalanced voltage let the surge arrester to operate in the power frequency range, and it causes the arrester to burn out. The failure of the arrester at one phase makes line to ground fault, which lead to the surge arrester failure of the other two phase on the tertiary bus.
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This paper looks into the characteristics of CVT's ferroresonant suppression filter-using RTDS(Real Time Digital Simulator).
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A Study of Developing the On-line Data Aquisition System for Monitoring the Distribution TransformerIn this paper, we developed the on-line Data Aquisition System(DAS) of distribution transformers using the hardware and monitoring program. The DAS consists of the top oil temperature sensing part, ambient temperature sensing part, load current sensing part, acoustic emission peak-value sensing part, acoustic emission pulse counter part, micro-processor part and wireless communication part. The Monitoring System consists of the communication setting, online monitoring and database construction part. The DAS send the data acquired from the some sensors of the distribution transformers to the host PC. The monitoring program of the host PC stores the data to database. And the monitoring system estimates the loss of life time for distribution transformer from the DB. Thus, it could be managed the career and the functional lifetime of the transformer more efficiently than existing methodologies.
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This paper presents an efficient location estimation methodology for a partial discharge(PD) source in the power transformer. The methodology previously proposed is not suitable for locating a PD source because the ultrasonic signal with medium attenuated through the inner structure. In general, the propagation characteristic of ultrasonic signal with medium is different. Therefore, using this propagation characteristic, we can detect the location of PD source. In this paper, the proposal algorithm finds the PD source using three sensors attached to one side of the transformer without attenuation of the ultrasonic signal and applying the neural network based geometrical method. The proposed methodology demonstrates the effectiveness and validity on an experimental transformer.
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This paper explains the characteristic differences in the process of insulator contamination according to heights. To investigate the contamination characteristics, test insulators are suspended to tower at the heights of 8m, 15m, 33m and 50m. That points stand for distances from insulator to bottom of the 22.9 kV, 154 kV, 345 kV and 765 kV towers, respectively. Generally, the contamination level of transmission lines is determined on the basis of measured value at the height of around 10m due to limitation in measuring. As the contamination level could be affected by the heights and the location of the constructed tower, it is suggested that the measured values should be corrected to minimize errors.
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We report the state of the development of monitoring system for 72.5kV GIS. In the first, the usual outline of the monitoring and diagnostic system for GIS was mentioned, and the detailed specifications and state of development were also described. Especially, we present items of monitoring for GIS such as the operating counter of CB, the leakage condition of
$SF_6$ gas, the surge counter of LA and the leakage current of LA. -
Coordination under short-circuit conditions is a systematic application of protective devices in the electrical power system, which, in response to a fault, will remove only a minimum amount of equipment from service. The objective is not only to minimize the equipment damage and process outage costs, but also to protect personnel from the effects of these failures. The coordination study of an electric power system consists of an organizes time-current study of all devices in series from the utilization device to the source. This study is a comparison of the time it takes the individual devices to operate when certain levels of normal or abnormal current pass through the protective devices. The objective of a coordination study is to determine the characteristics, ratings, and settings of overcurrent protective devices that will ensure that the minimum unfaulted load is interrupted when the protective devices isolate a fault or overload anywhere in the system. At the same time, the devices and settings selected should provide satisfactory protection against overloads on the equipment and interrupt short-circuit as rapidly as possible.
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Traditionally, instrument transformer of the ferromagnetic core type have been used for measuring current in GIS(Gas Insulated Switchgear). Recently, with the introduction of digital technology at the protection relay or measurement device level, the use of new current sensor can be foreseen. Current measurement by means of Rogowski coil is just one illustration of this. This paper describes the progress of development of Rogowski-coil type CT for application in 170kV GIS.
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Earth resistivity and changing of grounding electrode's shape are very important factor to reduce grounding resistance. Earth resistivity has different values according to property of soil and is effected by temperature, climate, and environment. This Paper describes the effect of the grounding resistance according to the grounding type such as driven rod, counterpoise grounding and mesh grounding. And also grounding resistance values with earth resistivity and shape of grounding electrode were represented in this paper.
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Current differential protective relaying with harmonic restraint module is, in general, used to protect transformer. But It is hard to distinguish inrush and internal winding fault with differential current protective relaying. This paper presents the new protective algorithm for transformers using 3-phase differential current's d1 coefficient values in wavelet transform. Various states of transformer was simulated using EMTP. Internal winding fault and inrush are classified within shorter time using the proposed algorithm.
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It is important to catch or classify fault types by any detecting technique for distribution protection. This paper proposes the technique to classify the fault types using wavelet transform in radial distribution line. Modeling of the radial distribution line is simulated using PSCAD/EMTDC and wavelet transform is performed in the Matlab program.
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This paper describes the effect of lightning current on combination transmission line. In the paper, an lightning current which can generate 2/80[
${\mu}s$ ]. 20[kA] - 40[kA] waveform is modeled in ATPDraw. The lightning current invaded to the overhead power transmission line propagates to the underground power cable. The simulation was performed to analyze the effect of arrester location and overvoltage occurred in power cable. -
This paper describes sheath induced voltage and operating characteristic of cable cover protection unit(CCPU) in underground transmission cable. Real cable system operating by 154kV XLPE cable was modelled for simulation. Sheath induced voltage and operating characteristic of CCPU were analyzed. In particular, sheath induced voltage was analyzed in case of individual grounding and common grounding, respectively, and operating characteristics of CCPU were compared each other.
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Shunt reactors are used to compensate for capacitive VARs generated by lightly loaded transmission lines or underground cables. They are normally connected to the transformer tertiary winding. Dry-type shunt reactors have the advantage compared with oil-immersed shunt reactor as followings. Lower investment and maintenance cost, No fire hazard and no environmental concerns, Simple insulation to ground, Response to transient overvoltage less severe, Linearity of inductance versus load current, Lower-acoustic noise, Easier transport and handling due to lower weight, No oil-collecting system must be provided since there is no oil that can leak into the ground.
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Electric power consumption is highly increasing as the social trend requiring comfortable life, the population in a big city and the industrial development. Therefore it has become to be very important to supply the stable high-quality power. As these trend, the underground power transmission facility is highly increasing in the center of a city. As the proportion to increase facility in tunnel, the fire prevention measures of the underground transmission line become very important.
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Power transactions are considered as noncooperative game in that participants compete each other to win the bidding game, and as cooperative game in that they have to cooperate to apply the result of bidding game to the physically interconnected power system. This paper applies both noncooperative and cooperative game theories in analyzing the entire process of power transaction.
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In the competitive electricity market, various pricing methods are developed and practiced in many countries. Among these pricing methods, marginal loss factor(MLF) can be applied to reflect the marginal cost of network losses. For the calculation of MLF, power flow method has been used. However, it shows some shortcomings such as necessity of regional reference node, and absence of an ability to consider network constraints. The former defect might affect adversely to the equity of market participants and the latter might generate an inappropriate price signal. To overcome these defects, the utilization of optimal power flow(OPF) is suggested in this paper. 30-bus system is used for the case study to compare the MLF by the power flow and the OPF method for 24-hour dispatching and pricing.
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Recently, Korea's electric industry is in the midst of a period of profound changes in the structure and function, including the introduction of market competition in the generation sector. Korea is in the early stages of market competition, so the market price is chosen by generation costs but will be chosen by bids in future. Therefore, the profits of generators is determined by market pool price and the prospects of pool price are very important for new capacity investment determination of generators and IPPs. This study analyzes hourly marginal costs and LOLP considering basic generation mix and characteristics, develops the relationship of pool price using the above in competition market, and proposes basic direction for profits variation and supply-demand analysis in the electric market in future.
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The efficient and rational transmission rate system is one of the crucial factors in creation of fair and competitive electricity market. Transmission charge can be largely categorized into the line usage charge, system reliability maintenance charge, access charge and others. Therefore, transmission rate structure should be able to reflect these cost components reasonably. This Paper suggests an approach that could be used for the reasonable calcuation of transmission reliability costs with reflection of line sensitivity and line outage rate.
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해외사례의 다양한 송전가격방식 중 장기 평균비용방식을 채택하고 있는 호주에 대하여 많은 관심이 집중되고 있는 현 시점에 호주 Western Power 회사의 송전요금체제는 우리에게 적지 않은 도움이 될 수 있다고 사료된다. 본 연구는 송전가격 결정에 있어서 중요한 역할을 하는 필요수입액의 산정과정과 산정방법, 그리고 비용할당방법들을 고찰함으로써 장차 우리나라의 송전가격 체계 분석 및 연구에 일조를 하고자 한다.
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The electric demand increase, financial need for new power plant constructions and environmental problem have led to search for more efficient energy production and energy conservation technology. To minimize the construction of power plants and reduce total power consumption include installation of inverters to motors used for pumps and fans. However, the high price of Inverters is the biggest obstacle to their wide use. Accordingly, to maximize the effect of energy saving by the expanded use of inverters, governmental economic support as well as the analysis of energy saving effect. This paper presents the cost-effectiveness analysis for DSM program evaluation and case study to analyze inverter DSM program.
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The variations of real time electric price in competitive electricity markets have influence on electric power demands of the consumers. Residential, commercial, and industrial consumers, with different characteristics cause the different price elasticity of the demand due to changing the pattern of consumption. Therefore, this paper calculate the elasticity of each loads and analysis the effects of electric power demands and spot pricing as a function of elasticity in competitive electricity market.
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Interfaces are the point of interconnection between distributed generation and the energy infrastructure. These interfaces are generally physical but can include a market dimension as well. While there are issues surrounding various interfaces, the most important issues in the short term are on the electrical interface. Much of the discussion and debate surrounding distributed generation interconnection has centered on technical issues. However, there are two elements of Interconnection that merit equal consideration-process and contractual issues. The solution of distributed generation Interconnection issues depends on whether existing requirements can be modified to make them more efficient, transparent, and standardized while maintaining the grid's reliability and safety. In this paper, two main courses, standardization and third party participation, are suggested for the resolution of these issues.
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This paper illustrates a method for evaluating nodal probabilistic production cost using the CMELDC. A new method for constructing CMELDC(the equivalent load duration curves of composite power system) was developed by authors. The CMELDC can be obtained by convolution integral processing between the probability distribution functions of the fictitious generators outage capacity and the load duration curves at each load point. Monte Carlo Methods are applied for the construction of CMELDC on this study. And IEEE-RTS 24 buses model is used as our case study with satisfactory results.
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This paper proposes a methodology to compute the servicing price of reactive power in electrical power market of competitive environment. The result of proposed method is proved by a 6-bus sample test system. In this paper we propose the real-time pricing method assigning to variable charges, the downstream power flow tracing assigning to fixed charges. The reactive power will be active by the proposed method through competitive electrical power market.
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국내에서는 전력산업의 규제가 점차 완화되면서 전력시장은 새로운 틀이 형성되어지고 있다. 전력시장의 구조개편후 각 전력회사들은 그들의 판매수익을 높이기 위하여 행동하게 될 것이다. 즉 그들의 부하를 적절하게 조절함으로써 한계비용이 평균비용보다 낮게 유지되도록 하여 이윤극대화를 추구해 나갈 것이다. 따라서 전력회사들은 수요측의 관리가 과거 어느 때 보다 필요하게 될 것이며, 어떻게 하면 부하곡선의 피크치를 억제할 것인지 생각하게 된다. 이러한 것을 해결하기 위해 전력회사들은 그들의 소비자 대부분을 수요관리 프로그램에 참여시키 부하관리를 할 것이며 이를 통해 피크치 부하를 억제시켜 한계비용을 줄이려할 것이다. 소비자들을 수요관리 프로그램에 참여토록 유도하기 위하여 전력회사는 여러 가지 인센티브를 제공하게 되는데, 소비자들은 이러한 인센티브를 받아 프로그램에 참여할 것인지를 선택하게 된다. 본 논문에서는 전력회사가 수요관리 프로그램을 실행할 때 어떤 효과를 얻게 되고 참여자들이 느끼는 순이익은 어떻게 될지를 고려하게 될 것이다. 이러한 것들은 전력회사 입장에서는 수요관리 프로그램을 실행하는 것이 그들에게 이익을 가져다 줄 것인지를 말해주며 소비자들은 그들의 프로그램에 지속적으로 참여할 것인지를 선택하게 될 것이다.
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This paper presents the investment level for DSM programs. To estimate the funding level We fix 2 scenarios to compared to investment level for DSM programs. The program budget ranged from 110 to 120billion won, which is equivalent to 0.5% of utility incomes.
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The purpose of this article is to search for desirable operational direction and compensation of hydro-power, after considering the electricity restructuring has influence on operation and profit of hydro-power for peak-load.
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This paper presents the results of power flow of North-South Korea system with interconnected cases which were proposed by various present studies. PSS/E and PowerWorld Simulator were used to analyze the inter connected system with several interconnected lines alternatives. The results would be very useful to select the best alternative for interconnection with considering several evaluation terms.
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Recently, heating using oil and gas has been continuously replaced by that using midnight power in home, due to increase of oil price. Therefore, midnight power apparatus has been more and more spreading. However, cost of midnight power services is increasing because high fuel cost of generation facilities by existing power generation mix are charge of midnight power services. This paper analyzes trends about rapidly increasing midnight power in winter, and evaluate load pattern and supply cost of midnight power. Also, this study proposes rate direction of midnight power according to introduction of competitiveness system with B/C evaluation of midnight power cost.
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The vertically integrated power industry was divided into six generation companies and one market operator, where electricity trading was launched at power exchange. In this environment, the profits of each generation companies are guaranteed according to utilization of their own generation equipments. Especially, the electricity demand shows seasonal and weekly regular pattern, which the some capacity should be provided into ancillary service based on the past demand forecasting error and operating results of electricity market. Namely, if generation cost function is applied to SMP and BLMP as announced the previous day, the available generation capacity of the following day could be optimally distributed, and therefore contract capacity of ancillary service applied to CBP(Cost Based Pool) and TWBP(Two-Way Bidding Pool) is determined. Consequently, it is Possible to use the retained equipments optimally. This paper represents on efficient bidding strategies for generation equipments through the calculation of the contract and the application of each generator cost function based on the past demand forecasting error and market operating data.
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It is required to develop a rational transmission tariff structure to ensure the fair participation of the player in the market where transmission sector remains as a monopoly after the electricity industry restructuring. The objective of this study is to suggest an improved transmission rate system which classifies the line capacity into line usage and reliability capacity based on their purpose of use and reasonably allocates the costs incurred by each of them to users.
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전압 주파수 부하 모형 추정에 사용되어 이전의 정임피던스, 정전류, 정전력 부하모형에 비해 향상된 결과를 얻었던 다항식형 부하 모형을 전력가격 부하 모형에도 적용하여 새로운 다항식 부하 모형을 제안하고, 우리나라의 전력 가격과 사용량 자료를 이용하여 부하 모형의 계수를 결정하였다. 부하의 종류별, 시간대별로 추정된 부하 모형에 부하의 구성 비율을 가중하면 결국 전체 부하 모형이 구해진다. 구해진 부하 모형은 전력 시장이 도입된 경쟁체제에서 전력의 가격 결정에 사용될 수 있을 것이다.
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본 연구에서는 총괄비용법 가운데 선로의 이용정도에 따른 송전요금의 결정에서 활용될 수 있는 모선에 대한 선로의 조류 민감도를 유도하였다. 또한, 발전기 및 부하의 증가에 대한 조류 민감도를 일반화하였으며, 기존의 반복적인 조류계산 수행 전략과 결과를 비교하였다. 제안된 방법론은 샘플 및 실계통에 적용하여 호주 빅토리아주의 선로 민감도 방법론과 비교 분석하였다.
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Current interior lighting design way that is consisting uniformly by designer's experience or simple capacity calculation diversifies according to standard of living elevation and there is problem that do not reflect been individualising resident's change request in lighting plan, design properly. Therefore, because this resident's request, enough judgment data that is worth reflecting dissatisfaction item in design concretely or standard is not saved up in business post, had gotten into bottleneck at lighting design. Diagnose resident's consciousness and feedback degree about interior lighting to existent apartment complex in this research and examined improvement plan. As a result, in the case of illumination, wanted higher brightness and showed reason that is most Affirmativ about order way of lighting fixtures. The reason is because can select registration nine that want by oneself directly. Plan qualitative elevation of house lighting environment making lighting image which is coincided in our real condition, and is thought to reflect various resident's character, fondness in design and solved dissatis faction.